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Reinhardt, J. (1992) Low-pressure, high-temperature metamorphism in a compressional tectonic setting: Mary Kathleen Fold Belt, northeastern Australia. Geological Magazine, 129 (1) 41-57 doi:10.1017/s0016756800008116

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Reference TypeJournal (article/letter/editorial)
TitleLow-pressure, high-temperature metamorphism in a compressional tectonic setting: Mary Kathleen Fold Belt, northeastern Australia
JournalGeological Magazine
AuthorsReinhardt, J.Author
Year1992 (January)Volume129
Issue1
PublisherCambridge University Press (CUP)
DOIdoi:10.1017/s0016756800008116Search in ResearchGate
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Mindat Ref. ID255295Long-form Identifiermindat:1:5:255295:2
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Full ReferenceReinhardt, J. (1992) Low-pressure, high-temperature metamorphism in a compressional tectonic setting: Mary Kathleen Fold Belt, northeastern Australia. Geological Magazine, 129 (1) 41-57 doi:10.1017/s0016756800008116
Plain TextReinhardt, J. (1992) Low-pressure, high-temperature metamorphism in a compressional tectonic setting: Mary Kathleen Fold Belt, northeastern Australia. Geological Magazine, 129 (1) 41-57 doi:10.1017/s0016756800008116
In(1992, January) Geological Magazine Vol. 129 (1) Cambridge University Press (CUP)
Abstract/NotesAbstractThe Mary Kathleen Fold Belt in northeastern Australia consists of highly deformed, Mid-Proterozoic sedimentary and volcanic sequences as well as intrusives, which were metamorphosed under low-pressure, high-temperature conditions. In the light of current controversy on tectono-thermal settings of low-pressure metamorphic terrains, the interrelations of progressive deformation and metamorphism have been closely examined. Remarkably, there is no direct evidence for syn-metamorphic extensional deformation nor is any significant intrusive activity recorded.Syn-metamorphic structures indicate lateral, bulk coaxial shortening of at least 50–60%. Tight upright folds, pervasive axial planar fabrics, undulating fold axes, and a vertical mineral lineation characterize this deformation. The metamorphic textures, particularly those in andalusite- and/or cordierite-bearing schists, reveal the sequential growth of metamorphic minerals that was synchronous with progressively increasing bulk rock strain. The corresponding metamorphic reactions constrain a prograde P–T path segment that crossed the andalusite and sillimanite stability fields while temperature and pressure increased. After reaching the metamorphic peak, the region cooled down near-isobarically, before major decompression occurred. The prograde–retrograde P–T path forms a complete anticlockwise loop.Due to the lack of evidence for crustal thinning and large-scale magmatism in the upper crust, alternative models are discussed in order to explain the transient high geothermal gradient. These are in particular convective thinning of the lithospheric mantle and fast decompression of crustal sections, possibly linked to tectonic processes preceeding the low-pressure/high-temperature orogenic event.

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Deshmukh, Tanzil, Prabhakar, N., Bhattacharya, A. (2021) Proterozoic High-Temperature–Low-Pressure Metamorphism in the Mahakoshal Belt, Central Indian Tectonic Zone (India): Structure, Metamorphism, U-Th-Pb Monazite Geochronology, and Tectonic Implications. The Journal of Geology, 129 (4) 417-444 doi:10.1086/715791
Searle, Michael P., Lamont, Thomas N. (2020) Compressional metamorphic core complexes, low-angle normal faults and extensional fabrics in compressional tectonic settings. Geological Magazine, 157 (1) 101-118 doi:10.1017/s0016756819000207
CAROSI, RODOLFO, PALMERI, ROSARIA (2002) Orogen-parallel tectonic transport in the Variscan belt of northeastern Sardinia (Italy): implications for the exhumation of medium-pressure metamorphic rocks. Geological Magazine, 139 (5) doi:10.1017/s0016756802006763
Jones, J. C. (1976) Regional Setting of Lachalan Fold Belt: Lachlan Fold Belt: An Actualistic Approach to Environmental/Tectonic Interpretation. Exploration Geophysics, 7 (1) 10-12 doi:10.1071/eg976010
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SAALMANN, K., REMUS, M. V. D., HARTMANN, L. A. (2006) Structural evolution and tectonic setting of the Porongos belt, southern Brazil. Geological Magazine, 143 (1) 59-88 doi:10.1017/s0016756805001433
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Fowler, T.J., Lennox, P.G. (1992) Low-pressure deformation of a small high-level pluton: The syn-tectonic Davys Creek Granite from the southeastern Lachlan Fold Belt, N.S.W. Tectonophysics, 214 (1) 293-309 doi:10.1016/0040-1951(92)90203-i
Egufluz, L., Abalos, B. (1992) Tectonic setting of Cadomian low-pressure metamorphism in the central Ossa-Morena zone (Iberian massif, SW spain) Precambrian Research, 56 (1) 113-137 doi:10.1016/0301-9268(92)90087-5
Zen, E-a. (1995) Crustal magma generation and low-pressure high-temperature regional metamorphism in an extensional environment; possible application to the Lachlan Belt, Australia. American Journal of Science, 295 (7) 851-874 doi:10.2475/ajs.295.7.851
Bevins, R. E., White, S. C., Robinson, D. (1996) The South Wales Coalfield: low grade metamorphism in a foreland basin setting?. Geological Magazine, 133 (6) 739 doi:10.1017/s0016756800024584
 
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